Computational Thinking (CT) is a relatively new educational focus and a clear need for learners as a 21st century skill. This proposal tackles this challenging new area for young learners, an area greatly in need of research and learning materials. The Principal Investigators will develop and implement integrated STEM+C museum exhibits and integrate CT in their existing engineering design based PictureSTEM curriculum for K-2 students. They will also pilot assessments of the CT components of the PictureSTEM curriculum. This work will make a unique contribution to the available STEM+C learning materials and assessments. There are few such materials for the kindergarten to second grade (K-2) population they will work with. They will research the effects of the curriculum and the exhibits with a mixed methods approach. First, they will collect observational data and conduct case studies to discover the important elements of an integrated STEM+C experience in both the formal in-school setting with the curriculum and in the informal out-of-school setting with families interacting with the museum exhibits. This work will provide a novel way to understand the important question of how in- and out-of-school experiences contribute to the development of STEM and CT thinking and learning. Finally, they will collect data from all participants to discover the ways that their activities lead to increases in STEM+C knowledge and interest.
The Principal Investigators will build on an integrated STEM curriculum by integrating CT and develop integrated museum exhibits. They base both activities on engineering design implemented through challenge based programming activities. They will research and/or develop assessments of both STEM+C integrated thinking and CT. Their research strategy combines Design Based Research and quantitative assessment of the effectiveness of the materials for learning CT. In the first two years of their study, they will engage in iterations on the design of the curriculum and the exhibits based on observation and case-study data. There will be 16 cases that draw from each grade level and involve data collection for the case student in both schools and museums. They will also use this work to illuminate what integrated STEM+C thinking and learning looks like across formal and informal learning environments. Based in some part on what they discover in this first phase, they will conduct the quantitative assessments with all (or at least most) students participating in the study
Discover NASA is the Discovery Museum’s endeavor to engage students in grades K through 12 as well as members of the general public in innovative space science and STEM-focused learning through the implementation of two modules: upgrades to the Challenger Learning Center, and the creation of K through 12 amateur rocketry and spacecraft design programming. The programming will be piloted at the Discovery Museum and Planetarium, and at the Inter-district Discovery Magnet School and the Fairchild-Wheeler Multi-Magnet High School, with an additional strategic partnership with the University of Bridgeport, which will provide faculty mentors to high school seniors participating in the rocketry program. Through these two modules, the Discovery Museum and Planetarium aims to foster an early interest in STEM, increase public awareness about NASA, promote workforce development, and stimulate an interest in the future of human space exploration. Both modules emphasize design methodologies and integration of more advanced space science into the STEM curriculum currently offered by Discovery Museum to visitors and public schools. The Challenger Learning Center upgrades will enable the Museum to deliver simulated human exploration experiences related to exploration of the space environment in Low Earth Orbit and simulated human exploration of Moon, Mars, and beyond, which will increase public and student awareness about NASA and the future of human space exploration. The development of an amateur rocketry and spacecraft development incubator for education, the general public, and commercial space will stimulate the development of key STEM concepts.
Pipeline for Remote Sensing Education and Application (PRSEA), will increase awareness, knowledge and understanding of remote sensing technologies and associated disciplines, and their relevance to NASA, through a combination of activities that build a “pipeline” to STEM and remote sensing careers, for a continuum of audiences from third grade through adulthood. This program will be led by Pacific Science Center. The first objective is to engage 50 teens from groups underrepresented in STEM fields in a four-year career ladder program; participants will increase knowledge and understanding of remote sensing as well as educational pathways that lead to careers in remote sensing fields at NASA and other relevant organizations. The second objective is to serve 2,000 children in grades 3-5, in a remote sensing-based out-of school time outreach program that will increase the participant’s content knowledge of remote sensing concepts and applications and awareness and interest in remote sensing disciplines. PRSEA’s third objective is to engage 180 youth, grades 6-8, in remote sensing-themed summer intensive programs through which youth will increase knowledge of remote sensing concepts and applications and increase awareness and interest in educational and career pathways associated with remote sensing and NASA’s role in this field. The final objective is to engage 10,000 visitors of all ages with a remote sensing-themed Discovery Cart on Pacific Science Center’s exhibit floor. By engaging in cart activities, we anticipate visitors will increase their level of awareness and interest in the topic of remote sensing and NASA’s role in contributing to this field.
This project is funded by the Advancing Informal STEM Learning (AISL) program, which seeks to advance new approaches to, and evidence-based understanding of, the design and development of STEM learning in informal environments. This includes providing multiple pathways for broadening access to and engagement in STEM learning experiences, advancing innovative research on and assessment of STEM learning in informal environments, and developing understandings of deeper learning by participants. This study will contribute to these goals by providing empirical evidence about how and under what circumstances science museums, science centers, and other designed settings for informal science education (ISE) can change so that they will reach more diverse audiences with the full range of their educational activities. This study will deepen understanding of equity norms and practices at ISE organizations, as well as the internal and contextual factors that shape them. The project builds on a unique opportunity provided by the widely known and critically acclaimed exhibition "RACE: Are We So Different?" After traveling to dozens of museums and science centers, and being seen by over three million people, RACE is returning home to the Science Museum of Minnesota (SMM) where it was created. Strand 1 of this study will examine the processes underlying organizational change at SMM as it attempts to use RACE to leverage organization-wide change. In Strand 2, the project team will compare the experiences of ISE organizations around the country that hosted RACE, focusing on the conditions that influence reflection and lead to (or prevent) lasting impact. These two studies will inform the design of Strand 3: a national survey on equity norms and practices, and the potential for equity-related change, in designed settings for ISE. Four research questions guide all project activities: 1)How can such Informal Science Education organizations leverage an unusual event, such as a traveling exhibition, to catalyze and sustain change in their equity-related norms and practices? 2) How and when does the deep reflection required to change entrenched norms and practices manifest itself in ISE organizations that attempt to change their equity norms and practices? 3) What contextual factors support or oppose the achievement and maintenance of organization-wide changes in equity norms and practices? 4) How common are these supportive and opposing conditions in the institutional field of museums and science centers, and how prevalent are different norms and practices related to equity?
The American Museum of Natural History requests SEPA support for a five-year development and implementation project entitled "Human Health and 'Human Bulletins': Scientists and Teens Explore Health Sciences in the Museum and World At Large." The program has three complementary components: (1) the development of 7 new productions for the Museum's digital media/documentary exhibition program, Human Bulletins http://sciencebulletins.amnh.org) featuring the newest health-related research; (2) a mini-course, entitled Hot Topics in Health Research NOW, an intensive after school program covering genetics, epidemiology, human health and human evolution, including a section on ethics in research; and (3) A "drop-in" Human Bulletins Science Club, where students meet monthly to watch a Human Bulletin visual news program, engage in informal discussions with significant researchers in the fields of evolutionary science and human health. The main goals of this project are: (1) to inform young people about emerging health-related research by using the Human Bulletins as core content for programming and points of engagement; (2) to promote a life-long interest in science among participants by teaching them how health-related science research could potentially affect them or their families; (3) to empower teens to critically assess the science presented to them in the Museum and in the world at large by teaching them to break down the "information bytes" of the Human Bulletins and to analyze how stories are presented visually and how to find answers to questions raised by the Bulletins; (4) for the young people in the program to see themselves as participants in the Museum by developing "mentor" relationships with Museum staff. This will allow students to see AMNH as an enduring institution to be used as a resource throughout their education and careers; and (5) to give students the means to envision themselves with future careers in science, research and in museums (thus fostering new generation of culturally-diverse, culturally enriched scientific leaders) by introducing them to scientists in an informal setting where there are no consequences for making mistakes or asking questions. The students will be given "behind the scenes" looks at new career options through the scientists featured in the Bulletins and the NIH funded researchers on the Advisory Board presenting at the informal sessions. Ultimately, the project aims to give students to critically process the information they receive about public health, see the relevance of human health science to their lives and pursue careers in health science. All of these skills are measurable through formative and summative evaluation. This project will teach young people to understand information about public health that is presented to them through visual and popular media as well as through formal scientific texts. It will also teach them to think about how human health sciences impact their lives and how the decisions they make impact larger human health. Finally, the program will also encourage students to pursue careers and further information about public health.
The integration of research with education and outreach is an essential aspect of our Center's mission. In order to assure the most effective use of our expertise and resources, we have developed a multi-faceted approach with activities that focus on coherent themes that address our three primary audiences: research community, our neighborhood, and the general public. These activities include research internships, enrichment programs for students & teachers, and informal science opportunities.